Technical Safety, Reliability and Resilience Methods and Processes / [electronic resource] :
by Ivo Häring.
- 1st ed. 2021.
- XXXVI, 308 p. 117 illus., 29 illus. in color. online resource.
1. Introduction and objectives -- 2. Technical safety and reliability methods for resilience engineering -- 3. Basic technical safety terms and definitions -- 4. Introduction to system modelling for system analysis -- 5. Introduction to system analysis methods -- 6. Fault Tree Analysis -- 7. Failure Modes and Effects Analysis. 8. Hazard analysis -- 9. Reliability prediction -- 10. Models for hardware and software development processes -- 11. The standard IEC 61508 and its Safety Life Cycle -- 12. Requirements for safety-critical systems -- 13. Semi-formal modeling of multi-technological systems I: UML -- 14. Semi-formal modeling of multi-technological systems II: SysML beyond the Requirements Diagram -- 15. Combination of system analysis methods -- 16. Error detecting and correcting codes.
This book provides basics and selected advanced insights on how to generate reliability, safety and resilience within (socio) technical system developments. The focus is on working definitions, fundamental development processes, safety development processes and analytical methods on how to support such schemes. The method families of Hazard Analyses, Failure Modes and Effects Analysis and Fault Tree Analysis are explained in detail. Further main topics include semiformal graphical system modelling, requirements types, hazard log, reliability prediction standards, techniques and measures for reliable hardware and software with respect to systematic and statistical errors, and combination options of methods. The book is based on methods as applied during numerous applied research and development projects and the support and auditing of such projects, including highly safety-critical automated and autonomous systems. Numerous questions and answers challenge students and practitioners.
9789813342729
10.1007/978-981-33-4272-9 doi
Fire prevention. Buildings—Protection. Security systems. Risk management. Engineering design. Fire Science, Hazard Control, Building Safety. Security Science and Technology. IT Risk Management. Engineering Design.